Find your overlay welding powders with

PowderFinder

Get there now

Plasma transferred arc (PTA) powders

Höganäs overlay welding powders for plasma transferred arc (PTA) deposition technique.

Surfit® cobalt (Co) based powders

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 0.25C 0.9Si 0.5Fe  27Cr 2.5Ni 0.7Mn 5.5Mo
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 21 (registered trademark of Kennametall Stellite)
  • Hardness:
    35 HRC (LC)
    28 HRC (PTA)
    340 HV (LC/PTA)




  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 0.25C 0.9Si 0.5Fe  27Cr 2.5Ni 0.7Mn 5.5Mo
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 21 (registered trademark of Kennametall Stellite)
  • Hardness:
    28 HRC (PTA)
    340 HV (PTA)




  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 1.2C 1Si 1.5Fe  28.5Cr 1.5Ni 4.6W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 6 (registered trademark of Kennametall Stellite)
  • Hardness:
    41 HRC (LC/PTA)
    400 HV (LC/PTA)





  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 1.2C 1Si 1.5Fe  28.5Cr 1.5Ni 4.6W 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 6 (registered trademark of Kennametall Stellite)
  • Hardness:
    41 HRC (PTA)
    400 HV (PTA)





  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 1.3C 1Si 1.5Fe  28.5Cr 0.4Mn 1.5Ni 4.2W
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 6 (registered trademark of Kennametall Stellite) with higher hardness
  • Hardness:
    43 HRC (LC/PTA)
    440 HV (LC/PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 1.3C 1Si 1.5Fe  28.5Cr 0.4Mn 1.5Ni 4.2W
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 6 (registered trademark of Kennametall Stellite) with higher hardness
  • Hardness:
    43 HRC (PTA)
    440 HV (PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 1.7C 1.1Si 1.1Fe  26Cr 22.5Ni 12W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy F (registered trademark of Kennametall Stellite)
  • Hardness:
    42 HRC (PTA)
    410 HV (PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 1.7C 1.1Si 1.1Fe  26Cr 22.5Ni 12W 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy F (registered trademark of Kennametall Stellite)
  • Hardness:
    42 HRC (PTA)
    410 HV (PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 1.4C 1.2Si 0.7Fe  28.5Cr <2Ni 8W
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 12 (registered trademark of Kennametall Stellite)
  • Hardness:
    44 HRC (LC/PTA)
    440 HV (LC/PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 1.4C 1.2Si 0.7Fe  28.5Cr <2Ni 8W
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 12 (registered trademark of Kennametall Stellite)
  • Hardness:
    44 HRC (PTA)
    440 HV (PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 1.85C 1.5Si <1.5Fe  30.5Cr <1Ni 8.5W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 12 (registered trademark of Kennametall Stellite)
  • Hardness:
    46 HRC (LC/PTA)
    480 HV (LC/PTA)

  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 1.85C 1.5Si <1.5Fe  30.5Cr <1Ni 8.5W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 12 (registered trademark of Kennametall Stellite)
  • Hardness:
    46 HRC (PTA)
    480 HV (PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co 2.3C 1.2Si 30Cr 1Fe 13W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 1 (registered trademark of Kennametall Stellite)
  • Hardness:
    56 HRC (LC/PTA)
    620 HV (LC/PTA)

  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/45 µm
Chemistry: Co 1.6C 1.1Si 27.5Cr 1.8Ni <1Mo 4W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 156 (registered trademark of Kennametall Stellite)
  • Hardness:
    45 HRC (PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co <0.05C 2.8Si 0.8Fe  9.7Cr 0.8Ni 29.5Mo 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Tribaloy™ T-400 (registered trademark of Kennametall Stellite)
  • Hardness:
    53 HRC (LC/PTA)
    560 HV (LC/PTA)

  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/63 µm
Chemistry: Co <0.05C 2.8Si 0.8Fe  9.7Cr 0.8Ni 29.5Mo 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Tribaloy™ T-400 (registered trademark of Kennametall Stellite)
  • Hardness:
    53 HRC (LC/PTA)
    560 HV (LC/PTA)

  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co <0.1C 0.3Si 0.7Fe 27Cr 9.5Ni 5Mo 0.8Mn 2W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Ultimet® (registered trademark of Haynes International)
  • Hardness:
    320 HV (LC/PTA)

  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 150/53 µm
Chemistry: Co <0.08C 3.4Si <1.5Fe 18Cr <1.5Ni 29Mo   
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Tribaloy™ T-800 (registered trademark of Kennametall Stellite)
  • Hardness:
    58 HRC (LC/PTA)
    650 HV (LC/PTA)


  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 210/63 µm
Chemistry: Co <0.08C 3.4Si <1.5Fe 18Cr <1.5Ni 29Mo 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Tribaloy™ T-800 (registered trademark of Kennametall Stellite)
  • Hardness:
    58 HRC (LC/PTA)
    650 HV (LC/PTA)
  
     

 

Cobalt (Co) based overlay welding powders

Particle size: 212/63 µm
Chemistry: Co 2.3C 1.2Si 30Cr 1Fe 13W 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Similar to Stellite™ alloy 1 (registered trademark of Kennametall Stellite)
  • Hardness:
    56 HRC (LC/PTA)
    620 HV (LC/PTA)

  
     

 

Amperweld® hard phase powders

Hard phase overlay welding powders

Particle size: 150/53 µm
Chemistry: C 4% 
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Cast tungsten carbide
  • 2300-2700 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 106/36 µm
Chemistry: C 4% 
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Cast tungsten carbide
  • 2300-2700 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 150/53 µm
Chemistry: C 4% 
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Spherical cast tungsten carbide
  • 2700-3100 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 150/53 µm
Chemistry: C 4.3% – 5.2% (depending on particle size)
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Macroline®
  • 2300-2700 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 180/53 µm
Chemistry: C 4.3% – 5.2% (depending on particle size)
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Macroline®
  • 2300-2700 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 160/63 µm
Chemistry: -
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Vanadium carbide
  • 1800-2400 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 90/45 µm
Chemistry: -
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Vanadium carbide
  • 1800-2400 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 45/5 µm
Chemistry: -
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Vanadium carbide
  • 1800-2400 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 200/160 to 45/5 µm
Chemistry: -
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Titanium carbide
  • > 3000 HV0.1
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 400/63 µm
Chemistry: -
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Chromium boride
  • Typically used in mixes
  
     

 

Hard phase overlay welding powders

Particle size: 400/63 µm
Chemistry: -
Powder type: -
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Chromium diboride
  • 1900-2300 HV0.1
  • Typically used in mixes
  
     

 

Surfit® hard phase powders

Carbide mixes overlay welding powders

Höganäs offers a wide range of Surfit powder mixes with Ni self-fluxing (SF) alloys and tungsten carbides.

With a broad portfolio of Ni self-fluxing alloys in combination with different tungsten carbides, we tailor mixes to meet the application requirements.

  • Ni self-fluxing alloys
  • Amperweld® Tungsten carbides
    • Amperweld CTC - Cast Tungsten Carbides
    • Amperweld SCTC - Spherical Cast tungsten carbide
    • Amperweld MTC - Macroline Tungsten Carbide
  • Amperit® Tungsten carbide cobalt
    • Amperit 519 WC-Co 88-12
    • Amperit 526 WC-Co 83-17

Please contact your local Höganäs sales representative to find a matching Surfit mix for your application.

Particle size: -
Chemistry: 
Powder type: Blended
Typical deposition techniques: Flame spraying, HVOF, laser cladding, plasma transferred arc (PTA), powder welding

 

Rockit® iron (Fe) based powders

Iron (Fe) based overlay welding powders

Particle size: 180/53 µm
Chemistry: Fe 0.15C 18Cr 2.5Ni 0.5Mo <4 Other
Powder type: Water atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    56 HRC (LC/PTA)
    610 HV (LC)
    600 HV (PTA)
  
     

 

Iron (Fe) based overlay welding powders

Particle size: 180/53 µm
Chemistry: Fe 2C 0.9Si 5Cr 6V <4 Other
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    67 HRC (LC/PTA)
    980 HV (LC)
    910 HV (PTA)

  
     

 

Surfit® iron (Fe) based powders

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 1.75C 1.3Si 28Cr 16Ni  4.5Mo 0.8Mn
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    38 HRC (LC)
    33 HRC (PTA)
    330 HV (LC)
    320 HV (PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 212/63 µm
Chemistry: Fe 1.75C 1.3Si 28Cr 16Ni 4.5Mo 0.8Mn
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    33 HRC (PTA)
    320 HV (PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 2.1C 1.2Si 28Cr 11.5Ni 5.5Mo 1Mn 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    53 HRC (LC)
    47 HRC (PTA)
    410 HV (LC)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 2.1C 1.2Si 28Cr 11.5Ni 5.5Mo 1Mn
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    47 HRC (PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe <0.03C 0.5Si 23Cr 13Ni 1Mn
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 125/45 µm
Chemistry: Fe <0.03C 0.8Si 17Cr 12Ni 2.5Mo 1.5Mn 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    180 HV (LC/PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe <0.03C 0.8Si 17Cr 12Ni 2.5Mo 1.5Mn   
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    180 HV (PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe <0.03C 1.6Si 17Cr 12Ni 2.5Mo 1.5Mn 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    180 HV (LC)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe <0.03C 0.5Si 12.5Cr 0.1Mn 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    17 HRC (LC/PTA)
    230 HV (LC/PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 125/45 µm
Chemistry: Fe 0.25C 0.5Si 13Cr <1Ni 1.2Mn 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    55 HRC (LC/PTA)
    590 HV (LC/PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 180/53 µm
Chemistry: Fe 0.25C 0.5Si 13Cr <1Ni 1.2Mn 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    55 HRC (LC/PTA)
    590 HV (LC/PTA)
  
     

 

Iron (Fe) based (stainless steel) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 0.2C 0.75Si 16Cr 1.8Ni <1Mn 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    53 HRC (LC/PTA)
    560 HV (LC/PTA)
  
     

 

Iron (Fe) based (tool steels) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 0.35C 1Si 5Cr 1.5Mo 0.3Mn 1V 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    53 HRC (LC/PTA)
    560 HV (LC/PTA)
  • Only on request
  
     

 

Iron (Fe) based (tool steels) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 1C 0.3Si 4Cr 5Mo 0.3Mn 2V 6.2W
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    63 HRC (PTA)
    820 HV (PTA)
  • Only on request
  
     

 

Iron (Fe) based (tool steels) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 1.25C 0.6Si 4.5Cr 4.5Mo 0.3Mn 4V 5.5W 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness: No data
  • Only on request
  
     

 

Iron (Fe) based (tool steels) overlay welding powders

Particle size: 150/53 µm
Chemistry: Fe 2.45C 1Si 5.2Cr 1.3Mo 0.5Mn 9.8V 0.5W 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    62 HRC (PTA)
    750 HV (PTA)
  • Only on request
  
     

 

Surfit® nickel (Ni) based powders

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni <0.06C 2Si 1.1B 0.5Fe 20Cu 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness: No data
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni <0.06C 2.3Si 1.4B 0.4Fe
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    24 HRC
    (LC) 230
    HV (LC)
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.1C 2.6Si 1B 1.9Fe 3.3Cr 0.4Al
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    24 HRC (PTA)
    300 HV (PTA)

  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 212/63 µm
Chemistry: Ni 0.13C 2.6Si 1B 1.9Fe 3.2Cr 0.4Al 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness: No data
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.15C 3.4Si 1.2B 3.1Fe 7Cr 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness: No data
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni <0.07C 3Si 1B 1Al 2.4Fe 5.6Cr 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    32 HRC (LC/PTA)
    310 HV (LC/PTA)
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 212/63 µm
Chemistry: Ni <0.07C 3Si 1B 1Al 2.4Fe 5.6Cr 
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    32 HRC (PTA)
    310 HV (PTA)
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni <0.07C 3Si 2.3B <0.8Fe 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    38 HRC (LC/PTA)
    380 HV (LC/PTA)
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.25C 3.5Si 1.6B 2.5Fe 7.5Cr 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    42 HRC (LC)
    40 HRC (PTA) 
    425 HV (LC/PTA)
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.35C 3.6Si 1.9B 2.7Fe 9Cr 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    47 HRC (PTA)
    490 HV (PTA)

  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.45C 3.8Si 2.3B 2.9Fe 11Cr
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    52 HRC (LC/PTA)
    550 HV (LC)
    580 HV (PTA)


  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 212/63 µm
Chemistry: Ni 0.45C 3.8Si 2.3B 2.9Fe 11Cr    
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    52 HRC (PTA)
    580 HV (PTA)


  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 180/53 µm
Chemistry: Ni 0.9C 5.3Si 2.1B 5.4Fe 17.8Cr
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    54 HRC (PTA)
    590 HV (PTA)
  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/63 µm
Chemistry: Ni 0.5C 4Si 3.4B 2.8Fe 16Cr 3Mo 3Cu
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    58 HRC (PTA)
    730 HV (PTA)



  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni <0.06C 3Si 2.9B
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    49 HRC (LC/PTA)
    510 HV (LC/PTA)

  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 210/63 µm
Chemistry: Ni <0.06C 3Si 2.9B
Powder type: Gas atomised
Typical deposition techniques: Plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    49 HRC (PTA)
    510 HV (PTA)

  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.75C 4.3Si 3.2B 3.8Fe 14.8Cr 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    62 HRC (LC/PTA)
    810 HV (LC/PTA)

  
     

 

Nickel based (NiSF) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.6C 3.7Si 2.8B 3.5Fe 14.3Cr 9.5W
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    60 HRC (LC/PTA)
    720 HV (LC/PTA)
  
     

 

Nickel based (NiAl) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 5Al
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

 

Nickel based (super alloy) overlay welding powders

Particle size: 125/45 µm
Chemistry: Ni <0.03C 0.4Si 0.75Fe 21.5Cr 9Mo 3.7Nb 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    200 HV (LC/PTA)




  
     

 

Nickel based (super alloy) overlay welding powders

Particle size: 150/45 µm
Chemistry: Ni <0.03C 0.4Si 0.75Fe 21.5Cr 9Mo 3.7Nb 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    200 HV (LC/PTA)




  
     

 

Nickel based (super alloy) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni <0.03C 0.4Si 0.75Fe 21.5Cr 9Mo 3.7Nb
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    200 HV (LC/PTA)




  
     

 

Nickel based (super alloy) overlay welding powders

Particle size: 180/63 µm
Chemistry: Ni <0.03C 0.4Si 0.75Fe 21.5Cr 9Mo 3.7Nb 
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    200 HV (LC/PTA)




  
     

 

Nickel based (super alloy) overlay welding powders

Particle size: 150/53 µm
Chemistry: Ni 0.12C 0.5Si 3Fe 15.5Cr 16Mo 4.5W 1.2Mn 0.5V
Powder type: Gas atomised
Typical deposition techniques: Laser cladding, plasma transferred arc (PTA)

     
 

Remarks:

  • Hardness:
    230 HV (LC/PTA)




  
     

 

Carbide mixes overlay welding powders

Höganäs offers a wide range of Surfit powder mixes with Ni self-fluxing (SF) alloys and tungsten carbides.

With a broad portfolio of Ni self-fluxing alloys in combination with different tungsten carbides, we tailor mixes to meet the application requirements.

  • Ni self-fluxing alloys
  • Amperweld® Tungsten carbides
    • Amperweld CTC - Cast Tungsten Carbides
    • Amperweld SCTC - Spherical Cast tungsten carbide
    • Amperweld MTC - Macroline Tungsten Carbide
  • Amperit® Tungsten carbide cobalt
    • Amperit 519 WC-Co 88-12
    • Amperit 526 WC-Co 83-17

Please contact your local Höganäs sales representative to find a matching Surfit mix for your application.

Particle size: -
Chemistry: 
Powder type: Blended
Typical deposition techniques: Flame spraying, HVOF, laser cladding, plasma transferred arc (PTA), powder welding

 

Amperit® pure metals, alloys & other material powders

Tungsten (W) thermal spray powders

Particle size: 45/22 µm
Chemistry: W pure
Powder type: Sintered
Suitable for deposition techniques: VPS/LPPS

     
 

Remarks:

  • Corrosion resistant against acids
  • Good high temperature stability in non-oxidising atmospheres
  • High melting point
  • Good adhesion to graphite, alumina and quartz
  
     

 

Tungsten (W) thermal spray powders

Particle size: 90/45 µm
Chemistry: W pure
Powder type: Sintered
Suitable for deposition techniques: VPS/LPPS

     
 

Remarks:

  • Corrosion resistant against acids
  • Good high temperature stability in non-oxidising atmospheres
  • High melting point
  • Good adhesion to graphite, alumina and quartz
  
     

 

Tungsten (W) thermal spray powders

Particle size: 25/5 µm
Chemistry: W pure
Powder type: Sintered
Suitable for deposition techniques: VPS/LPPS

     
 

Remarks:

  • Corrosion resistant against acids
  • Good high temperature stability in non-oxidising atmospheres
  • High melting point
  • Good adhesion to graphite, alumina and quartz
  
     

 

Contact us

Sales & Technical support
Contact your sales representative for more information and requests.
Contact us
Contact form
Contact persons
Technical area: Surface coating
Select your country *
Type of contact * Sales
Sales
Technical support
Firstname *
Lastname *
Company *
Field of work *
CEO/owner
Purchasing
Design engineer
Business developer
Machine operator
Other
E-mail *
Phone of work *
Your message *

Privacy policy

I agree that Höganäs can handle my personal data in order to contact me. My contact information may also be used in marketing purpose, such as newsletters and other relevant information. The data will not be shared with a third party. With my consent, I also confirm that I am over 16 year old.

More information about how we handle personal data can be found in our privacy policy.

You must accept the terms of service before you can proceed.

Thank you for contacting us

We appreciate you contacting {{contact.TypeOfContact}} about {{contact.TechnicalArea}}.
One of our colleagues will get back to you shortly.

Have a great day!
/Höganäs

Something went wrong

Plasma transferred arc (PTA) powders
Find your overlay welding powders with PowderFinder
Thermal surfacing
Learn more about surface coating, applications and deposition techniques
Technical service ArcX
ArcX technology centres
– Your starting point for innovation